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I understand the differences between DFS (Depth First Search) and BFS (Breadth First Search), but I'm interested to know when it's more practical to use one over the other? Could anyone give any examples of how DFS would trump BFS and vice versa? Thanks!

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Maybe you could mention the full terms for DFS and BFS to the question - people might not know these abbreviations. –  hstoerr Jul 26 '10 at 7:36
Similar question on Computer Science: graph searching: Breadth-first vs. depth-first –  Gilles Mar 13 '12 at 17:57
possible duplicate of Graphs data structure: DFS vs BFS? –  Ciro Santilli Jul 24 '13 at 11:33

5 Answers 5

up vote 51 down vote accepted

That heavily depends on the structure of the search tree and the number and location of solutions (aka searched-for items). If you know a solution is not far from the root of the tree, a breadth first search (BFS) might be better. If the tree is very deep and solutions are rare, depth first search (DFS) might take an extremely long time, but BFS could be faster. If the tree is very wide, a BFS might need too much memory, so it might be completely impractical. If solutions are frequent but located deep in the tree, BFS could be impractical. If the search tree is very deep you will need to restrict the search depth for depth first search (DFS), anyway (for example with iterative deepening).

But these are just rules of thumb; you'll probably need to experiment.

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"That heavily depends on the structure of the search tree and the number and location of solutions". What exactly do you mean by solutions here? –  Inquisitive Mar 30 '13 at 9:18
@Inquisitive I was calling the things you want to find in the tree "solutions" - that is, the tree is a tree of potential solutions to a problem. Do you have an idea for a better naming? –  hstoerr Apr 3 '13 at 9:00
@hstoerr yes it makes sense. Another line I am having trouble understanding is " If the tree is very deep and solutions are rare, depth first search (DFS) might rootle around forever"..What you mean by rootle? –  Geek Apr 5 '13 at 15:42
@Geek thefreedictionary.com/rootle I de-slang-ified the answer a little. :-) –  hstoerr Apr 7 '13 at 19:53
@hstoerr i would use "searched-for items" as opposed to "sol'ns" –  mayonesa May 20 '14 at 22:15

DFS is more space-efficient than BFS, but may go to unnecessary depths.

Their names are revealing: if there's a big breadth (i.e. big branching factor), but very limited depth (e.g. limited number of "moves"), then DFS can be more preferrable to BFS.


It should be mentioned that there's a less-known variant that combines the space efficiency of DFS, but (cummulatively) the level-order visitation of BFS, is the iterative deepening depth-first search. This algorithm revisits some nodes, but it only contributes a constant factor of asymptotic difference.

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Breadth First Search is generally the best approach when the depth of the tree can vary, and you only need to search part of the tree for a solution. For example, finding the shortest path from a starting value to a final value is a good place to use BFS.

Depth First Search is commonly used when you need to search the entire tree. It's easier to implement (using recursion) than BFS, and requires less state: While BFS requires you store the entire 'frontier', DFS only requires you store the list of parent nodes of the current element.

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Some algorithms depend on particular properties of DFS (or BFS) to work. For example the Hopcroft and Tarjan algorithm for finding 2-connected components takes advantage of the fact that each already visited node encountered by DFS is on the path from root to the currently explored node.

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When you approach this question as a programmer, one factor stands out: if you're using recursion, then depth-first search is simpler to implement, because you don't need to maintain an additional data structure containing the nodes yet to explore.

Here's depth-first search for a non-oriented graph if you're storing “already visited” information in the nodes:

def dfs(origin):                               # DFS from origin:
    origin.visited = True                      # Mark the origin as visited
    for neighbor in origin.neighbors:          # Loop over the neighbors
        if not neighbor.visited: dfs(next)     # Visit each neighbor if not already visited

If storing “already visited” information in a separate data structure:

def dfs(node, visited):                        # DFS from origin, with already-visited set:
    visited.add(node)                          # Mark the origin as visited
    for neighbor in node.neighbors:            # Loop over the neighbors
        if not neighbor in visited:            # If the neighbor hasn't been visited yet,
            dfs(node, visited)                 # then visit the neighbor
dfs(origin, set())

Contrast this with breadth-first search where you need to maintain a separate data structure for the list of nodes yet to visit, no matter what.

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